Identification of SSR Marker Linked to a Major Dwarfing Gene in Common Wheat

A segregating population with 410 F2 individuals from the cross MERCIA (Rht-B1a) × Dwarf 123 was made to identify a new major dwarfing gene carrying by novel wheat germplasm Dwarf 123. Combination of bulk segerant analysis method was used. A total of 145 SSR markers were tested for polymorphisms amo...

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Published inJournal of Integrative Agriculture Vol. 12; no. 5; pp. 749 - 755
Main Authors MENG, Ya-ning, KANG, Su-hua, LAN, Su-que, LI, Xing-pu, ZHANG, Ye-lun, BAI, Feng
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.05.2013
Science Press
Institute of Cereal and 0il Crops, Hebei Academy of Agriculture and Forestry Sciences/Hebei Research Station of Crop Gene Resource&Germplasm Enhancement, Ministry of Agriculture/Key Laboratory of Genetics and Breeding of Hebei Province, Shijiazhuang 050031, P.R.China%College of Life Science, Hebei Normal University, Shijiazhuang 050016, P.R.China
Elsevier
Subjects
chromosome
chromosome dwarfing gene genetic distance linkage analysis molecular markers polymorphism Triticum aestivum L
dwarfing gene
F2群体
genetic distance
linkage analysis
molecular markers
polymorphism
SSR标记
Triticum aestivum L
基因连锁分析
挂钩
普通小麦
标记鉴定
矮秆基因
遗传距离
linkage analysis
chromosome
dwarfing gene
Triticum aestivum L
polymorphism
genetic distance
molecular markers
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Summary:A segregating population with 410 F2 individuals from the cross MERCIA (Rht-B1a) × Dwarf 123 was made to identify a new major dwarfing gene carrying by novel wheat germplasm Dwarf 123. Combination of bulk segerant analysis method was used. A total of 145 SSR markers were tested for polymorphisms among parental lines and DNA bulks of F2 population. Out of 145 primer pairs only three markers revealed corresponding polymorphism among parental lines and F2 DNA bulks. The marker Barc20 was close to the dwarfing gene with a genetic distance of 1.8 cM, and markers Gwm513 and Gwm495 were linked to the gene with genetic distance of 6.7 and 13 cM, respectively. Linkage analysis mapped the dwarfing gene to the long arm of chromosome 4B with the order of Barc20-dwarfing gene-Gwm513-Gwm495. The Comparision between the new gene and the known Rht-B1 alleles showed that dwarfing gene Rht-Ai123 was different from the others. The identification of the new dwarfing gene and its linked markers will greatly facilitate its utilization in wheat high yield breeding for reducing plant height.
Bibliography:A segregating population with 410 F2 individuals from the cross MERCIA (Rht-Bla)×Dwarf 123 was made to identify a new major dwarfing gene carrying by novel wheat germplasm Dwarf 123. Combination of bulk segerant analysis method was used. A total of 145 SSR markers were tested for polymorphisms among parental lines and DNA bulks of F2 population. Out of 145 primer pairs only three markers revealed corresponding polymorphism among parental lines and F2 DNA bulks. The marker Barc20 was close to the dwarfing gene with a genetic distance of 1.8 cM, and markers Gwm513 and Gwm495 were linked to the gene with genetic distance of 6.7 and 13 cM, respectively. Linkage analysis mapped the dwarfing gene to the long arm of chromosome 4B with the order of Barc20-dwarfing gene-Gwm513-Gwm495. The Comparision between the new gene and the known Rht-B1 alleles showed that dwarfing gene Rht-Ai123 was different from the others. The identification of the new dwarfing gene and its linked markers will greatly facilitate its utilization in wheat high yield breeding for reducing plant height.
10-1039/S
chromosome, dwarfing gene, genetic distance, linkage analysis, molecular markers, polymorphism, Triticumaestivum L.
http://dx.doi.org/10.1016/S2095-3119(13)60266-X
http://www.chinaagrisci.com/Jwk_zgnykxen/fileup/PDF/20131205-749.pdf
ISSN:2095-3119
2352-3425
DOI:10.1016/S2095-3119(13)60266-X